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Renewable Energies

Renewable energies are clean, unlimited and increasingly competitive sources of energy. They are energy sources based on the use of natural resources: sun, wind, water or plant or animal biomass. They differ from fossil fuels mainly in their diversity, abundance and potential for use in any part of the planet, but especially in the fact that they do not produce greenhouse gases.

 

There are various types of renewable energy such as wind energy, photovoltaic energy, hydropower, biomass and biogas, geothermal energy, tidal energy, wave power, bioethanol and biodiesel.

 

Given the importance of renewable energies, their main advantages should be emphasized: they do not emit greenhouse gases, are inexhaustible and less and less expensive, reduce energy dependence, and have a favorable political horizon.

 

Due to the proliferation of renewable energies and the need to create more efficient and flexible power systems, decentralized generation is becoming more and more popular. This is the origin of the Micro-Grids concept. They are bidirectional power generation systems, based mostly on renewable energies, which distribute electricity from various points of energy generation to consumers through digital technology and favoring the integration of renewable energies.

 

 

Thanks to this technological evolution that has given rise to renewable energies and to their decentralization, it has been possible to integrate the electric vehicle in today's society. In turn, this has significantly reduced greenhouse gases (CO2) and costs and increased the reliability of the electrical system.

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  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
  • COMPUTER CONTROLLED GEOTHERMAL (LOW ENTHALPY) ENERGY UNIT
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FeaturesGeothermal energy is generated using the heat given off by the Earth to obtain energy
EG5C. UnitUnit mounted in anodized aluminum frame and panels of painted steel. The unit includes wheels to fac
Heat pumpHermetic compressor: Power: 0.5 CV, 4 A
Coefficient of performance1111W
Heat Pump Capacity1580W

The Computer Controlled Geothermal (low enthalpy) Energy Unit, "EG5C", designed by EDIBON, consists of a cooling circuit, a small tank with pipes covered with water (bath) and a chilling unit (heat pump). The inside of the earth is simulated with them. There is another tank where the sanitary hot water heated bythe unit is stored.

 

The cooling circuit consists of a compressor, an air condenser/evaporator, and two water condensers/evaporators. The reason is that the unit has a 4 ways valve that can detect if it is summer or winter by the environmental conditions. According to this, it sends the refrigerant gas to one or another exchanger. So they are able to work as evaporators or condensers of the refrigerant liquid.

 

The ground is simulated by means of a small tank that covers some pipes and a heat pump.

 

The water of the tank is at a constant temperature, the same temperature that the earth has at 20 m of depth (15ºC [59ºF] approximately). This water goes to a bath, heating or cooling the water that flows through the pipes immersed in the bath.

 

Finally, there is a tank to store the water heated by the unit. It simulates the sanitary hot water of a house.

 

The unit has a cycle inversion valve, which is able to simulate winter and summer conditions, as it was mentioned before. Since the temperature of the earth at 20 m of depth is always 15ºC, this temperature will be higher than the environmental temperature in winter, therefore, the ground is used to heat (heating mode use). However, the environmental temperature in summer will be higher than 15ºC,so the ground’s water will be used to cool (refrigerating mode).

 

This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board + Computer Control, Data Acquisition and Data Management Software Packages, forcontrolling the process and all parameters involved in the process.

 

 

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

 

 

Study of geothermal energy using a geothermal heat pump system for heating and/or cooling.

Study of the system with different ground temperatures.

Determination of the inlet power, produced heat and coefficient of performance, working in heating mode. Water-water heat pump.

Determination of the inlet power, produced heat and coefficient of performance, working in cooling mode. Water-water heat pump.

Determination of the inlet power and valuation of the air temperatures, working in heating mode. Water-air heat pump.

Determination of the inlet power and valuation of the air temperature, working in cooling mode. Water-air heat pump.

Preparation of performance curves of the heat pump, working in heating mode, with different inlet and outlet temperatures. Water-water heat pump.

Preparation of performance curves of the heat pump, working in cooling mode, with different inlet and outlet temperatures. Water-water heat pump.

Lay out of the steam compression cycle in a P-H diagram and comparison with the ideal cycle. Water-water heat pump. Heating mode.

Lay out of the steam compression cycle in a P-H diagram and comparison with the ideal cycle. Water-air heat pump. Heating mode.

Preparation of the performance curves of the heat pump based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water-water heat pump. Heating mode.

Preparation of the performance curves of the heat pump based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water-water heat pump. Cooling mode.

Sensors calibration.

 

 

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  • WIND ENERGY BASIC UNIT
  • WIND ENERGY BASIC UNIT
  • WIND ENERGY BASIC UNIT
  • WIND ENERGY BASIC UNIT
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Service LocationJaipur
Weight20 Kg approx.
Average Training Hours2 h
Electronic console490 x 330 x 310 mm approx.
Wind turbineSet of six blades for the wind turbine.
Dimensions600 x 400 x 500 mm approx.
Electrical supplysingle-phase, 220 V/50 Hz

The Wind Energy Basic Unit, "MINI-EEE", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.

 

This unit consists of a transparent tunnel, a wind turbine with rotor to place up to six blades and a variable speed axial fan.

 

The air speed is varied by changing the rotational speed of the axial fan and a sensor allows for measuring that air velocity.

 

This fan generates the required air flow to make the rotor of the wind energy unit work. The generator converts the kinetic energy of the rotor into electric energy. The rotational speed of the wind turbine can be measured with a sensor.

 

The unit includes a DC load module with LEDs, a rheostat, a DC motor, a load selector and switches to select the type of load. Thus, the wind turbine may work in open circuit or connected to LEDS, to a rheostat or to a DC motor.

 

A voltage and current sensor measures the voltage and current provided by the wind turbine in order to determine the power.


GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

 

Study of the aerogenerator operation depending on the wind speed variation.

Determination of the aerogenerator characteristic parameters.

Study of the differences in the operation by using the three available blades'configurations (aerogenerator with six, three or two blades).

Study of the influence of the load variation in the aerogenerator.

Study of voltage, power and current.

Experimental determination of efficiency.

Study of the power generated by the aerogenerator depending on the wind speed.

Study of the power generated by the aerogenerator depending on the number of blades.

Determination of the wind energy measurement.

Study of the characteristic curve of the aerogenerator at constant wind speed.

Study of the characteristic curve of the aerogenerator at constant revolutions.

 

Study of the DC loads connection.

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  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
  • COMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
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Usage/ApplicationUnit designed for simulating an energy generation system from the ocean currents, using the technolg
PhaseSingle Phase
Model Name/NumberCOMPUTER CONTROLLED SUBMARINE CURRENTS ENERGY UNIT
Automation GradeAutomatic
Control-Interface BoxControl interface box with process diagram in the front panel and with the same distribution that th
DisplayRemote operation and control by the user and remote control for company technical support, are always

An interesting technology for harnessing the energy from the ocean currents is the use of turbine-driven generators anchored in place in the current stream.

 

The blades of the turbine are driven by the moving water. These blades are used to turn the generators and to harness the energy of the water flow.

 

The ECMC unit is designed for simulating this energy generation system, allowing the study and tests of the operation and performance of a turbine (ocean turbine) for energy generation.

 

This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), including: Control Interface Box + Data Acquisition Board +Computer Control and Data Acquisition Software, for controlling the process and the parameters involved.

 

 

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

 

 

Study of the energy available from a water stream.

Potential energy of water.

Measures and controls.

Sensors calibration.

Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.

Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and/or extrinsically to change the span, gains, proportional, integral, derivative parameters, etc, in real time.

The Computer Control System with SCADA and PID Control allow a real industrial simulation.

This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

This unit can be used for doing applied research.

This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

Control of the ECMC unit process through the control interface box without the computer.

Visualization of all the sensors values used in the ECMC unit process.

By using PLC-PI additional 19 more exercises can be done.

Several other exercises can be done and designed by the user.

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  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
  • COMPUTER CONTROLLED TIDAL ENERGY UNIT
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Model Name/NumberComputer Controlled Tidal Energy Unit
DisplayHigh visibility and multiple functions. Display of a highly visible status. Recipe function. Bar gra
Remote Operationcontrol by the user and remote control for company technical support, are always included.
Analog inputNumber of channels= 16 single-ended or 8 differential. Resolution=16 bits, 1 in 65536.
Digital Input/OutputNumber of channels=24 inputs/outputs. D0 or DI Sample Clock frequency: 0 to 100 MHz. Timing: Number
Data Acquisition BoardThe Data Acquisition board is part of the SCADA system.

An interesting technology for harnessing the energy from the ocean currents is the use of turbine-driven generators anchored in place in the current stream.

 

The blades of the turbine are driven by the moving water. These blades are used to turn the generators and to harness the energy of the water flow.

 

The ECMC unit is designed for simulating this energy generation system, allowing the study and tests of the operation and performance of a turbine (ocean turbine) for energy generation.

 

This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), including: Control Interface Box + Data Acquisition Board +Computer Control and Data Acquisition Software, for controlling the process and the parameters involved.

EXERCISES AND GUIDED PRACTICES

 

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

 

Electrical energy generation with different type of tides.

Measures and controls.

Sensors calibration.

Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.

Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and/or extrinsically to change the span, gains, proportional, integral, derivative parameters, etc, in real time.

The Computer Control System with SCADA and PID Control allow a real industrial simulation.

This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.

This unit can be used for doing applied research.

This unit can be used for giving training courses to Industries even to other Technical Education Institutions.

Control of the EMMC unit process through the control interface box without the computer.

Visualization of all the sensors values used in the EMMC unit process.

By using PLC-PI additional 19 more exercises can be done.

 

Several other exercises can be done and designed by the user.

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Solar - Photovoltaic

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Plant Capacity5 KW
Type of PlantGrid Tie
Other ComponentsSolar Tracker
Operating Voltage24 V

Solar panels use light energy from the sun to generate electricity through the photovoltaic effect. A typical photovoltaic installation includes an array of panels, an inverter, batteries and wiring.

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Usage/ApplicationTechnical Education Purpose.
Model Name/NumberDL HYDROGEN-B
TypeFully Automatic
Net Weight35 kg
Dimensions1.21 x 0.62 x 0.82 m.
Average Training Hours8 h

Fuel Cells energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles: Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells Biodiesel Etc.

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Hydro Power Project

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Rated Speed1000 rpm
Diameter Of The Axis16 mm
Number of Blades16
Diameter Of The Rotor124 mm

Renewable energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells, Biodiesel, Etc.

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UsageCommercial
MaterialSteel
Power SoursElectric

Solar Thermal collectors are designed to collect heat by absorbing sunlight. Usually, they pass their heat through a heat exchanger to water in a storage tank for sanitary purposes.

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Solar Thermal Systems

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Dimension1.77 x 1 .22 x 1.91 m.
Net Weight124 Kg
Gross Weight283Kg

Solar Thermal energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles: Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells, Biodiesel, Etc.

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Fuel Type Hydrogen
ApplicationSmall Appliances
Power Range300 V

It mainly uses air-cooled fuel cell stack as subject to study the fuel cell stack performance test, to achieve fuel cell power generation system parameters full test, and monitor the important parameters which affect the stack electrical output characteristics; study stack output performance change under different working conditions, to improve system control performance and power generation efficiency.

Experiments:
  • Fuel cell open voltage test
  • Fuel cell I-V characteristics test
  • Fuel cell actual efficiency test Inverter module experiment
  • Fuel cell output inversion experiment Application module experiments:
  • Fuel cell drive DC/AC fan connection
  • Fuel cell drive warning light7. Fuel cell driving charger
  • Fuel cell driving variable impedance load New energy vehicle module experiments:
  • New energy vehicle system principle
  • New energy vehicle power-driven
  • New energy vehicle steering-driven
  • New energy vehicle photoelectric speed measurement
  • New energy vehicle mileage measurement
  • New energy vehicle Nc lamp
  • New energy vehicle power consumption measurement
  • New energy vehicle conversion efficiency measurement

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Power Supply5 Vdc
TypePhoto Voltaic
Solar Panel5 W

Composed of a set of electronic sub-boards for basic experiences on solar photovoltaic cells. the development module includes 9 free slots on which electronic expansion sub-boards can be inserted. each slot contains two connectors, one in the upper part and one in the lower part. the connectors give access to the internal input and output points of the sub-boards. the module is also provided with terminals for the power supply of the sub-boards.
List of the sub-boards for the study of the photovoltaic solar energy:
  • Sub-board with a photovoltaic solar cell (2 off), to allow experiences with cells in series and in parallel.
  • Sub-board with display (double voltmeter), to show the voltage at the battery and the voltage at the loads.
  • Sub-board with a charge regulator, that can be connected to an external solar panel and to the battery.
  • Sub-board with a breadboard, to allow making a circuit with components such as photodiodes.
  • Sub-board with the battery controller to control the charge of an external battery (included).
  • Sub-board with incandescent lamps to be used as a load for the system.
  • Sub-board with led to be used as a load for the system.
  • Sub-board with a relay circuit, to allow switching between the battery supply or the mains voltage when the battery is out of power.
  • Fan

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Solar System Kit

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Test Leadsblack 25 cm
Dimensions1100 mm
Methoxide Tank5 Liter

Solar system Kit energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principle Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells Biodiesel Etc.

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Net Weight16 kg
Average Training Hours10h (including 2h for fault finding)
Dimensions0.66 x 1.04 x 0.35 m

Solar Photovoltaicare those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles: Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells, Biodiesel, Etc.

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Net Weight46 Kg
Dimensions1.04 x 0.63 x 0.72 m.
Average Training Hours10 h

The conservation and the rational use of the energy is becoming a topical subject, together with that of the production of energy from renewable sources Our didactic systems offer a direct and intuitive learning of the problems related to the subject of the energy efficiency Students can perform practical experiences on real systems Cathodic Protection (CP) is a technique used to control the corrosion on a metal surface by making it the cathode of an electrochemical cell.

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Renewable Energy - Solar

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Plant Capacity1 KW
Other ComponentsSolar Tracker
Operating Voltage24 V

Renewable Energy - Solar

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Hydrogen Purity99%
Output Pressure0.4-1.6Mpa
Hydrogen Output0.3-2Nm3/h

system for the study of renewable energy:

solar energy, wind energy and hydrogen fuel cells with the trainer, it is possible to perform the following experiments
  • Assembling a fuel cell
  • Producing and storing hydrogen
  • Determining characteristic curve of solar panel
  • Hydrogen/oxygen or hydrogen/air operation
  • Determining characteristic curve of electrolyser
  • Determining electrolyser efficiency
  • Learning about faraday’s laws
  • Determining characteristic curves of fuel cell
  • Determining fuel cell efficiency
  • Determining decomposition voltage of water
  • Building a model hydrogen car
  • Using methanol to generate electricity
  • Determining characteristic curves of dmfc
  • Influence of the surface of a solar module on voltage and current intensity of a solar module

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Hybrid Systems

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Average Training Hours10 H
Approx Packing Dimensions2.12 x 1.12 x 1.13 m.
Net Weight104 Kg

Renewable energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells, Biodiesel, Etc.

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Solar-Wind-Hydrogen

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Average Training Hours8 h
Approx Packing Dimensions0.81 x 0.61 x 0.61 m
Net Weight29 kg

Renewable energies are those forms of energy that are generated from sources that regenerates themselves or are inexhaustible. Through our didactic systems we explain their operating principles Photovoltaic solar energy, Thermal solar energy, Wind energy, Fuel cells, Biodiesel, Etc.

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Technosys SystemsPlot No. B-16(B), Indrapuri, Satya Nagar Jhotwara, Near Medical Centre, Jaipur-302012, Rajasthan, India

Jitendra Chauhan (Director)

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